OUTCOMES BASED LEARNING MATRIX Course: Physical Geology Department: _Physical Science Physical Geology This course is intended to acquaint students with the physical structure of the Earth, the nature and origin of the s composing the planet, and the major processes which are responsible for constant change on the planet. Students will learn how geologists study the Earth and interpret its history. In the laboratory portion of the course, emphasis will be placed on becoming familiar with crustal rocks and minerals and the effects of geological processes as interpreted from topographic maps and aerial photographs. COURSE OUTCOMES OUTCOMES ACTIVITIES ASSESSMENT TOOLS Upon completing this course a student should be able to 1. Explain what a geologist does and why their work is important to society 2. Describe the steps and process by which science advances human understanding 3. Explain the difference between a hypothesis and a theory 4. Describe the evidence suggesting that the Mediterranean has dried up in the past 5. Describe the tools and techniques used in geological research 6. Explain the meaning of Hutton s principle of Uniformitarianism 7. Explain how principles of Uniformitarianism, applied to layered rocks, unconformities and fossil assemblages, aid in interpreting Earth s history lecture (R,W,) lecture (R,W,) lecture lecture lecture lecture lecture
8. Describe the three classes of rock and how they are related in terms of the rock cycle 9. Contrast the internal vs. the external source of heat powering cycles of constant change within Earth 10. Name and describe the various zones that make up the Earth s surface and interior 11. Discuss the evidence scientists identified that suggested the continents have moved over time 12. Explain the importance of paleomagnetic evidence to the theory of plate tectonics 13. Describe the major topographic characteristics of the ocean floor and relate these features to the concept of sea-floor spreading 14. Describe the three types of plate boundaries that occur and cite an example of each 15. Describe the topographic features associated with both passive and active plate boundaries 16. Describe the pattern of distribution of seismic activity on Earth 17. Explain the elastic rebound theory for earthquakes 18. Explain the connection between earthquakes and plate tectonics View the film: Earth s Story Complete the lab exercise on Earth s Dimensions Complete the lab on plate tectonics View the film The Heat Within Complete the lab on earthquakes lecture, and film, and lab (R,W, CT,QS), and lab (R,W,CT, QS) lecture, and film, lecture lecture and lab (R,W, CT,QS) lecture lecture
19. Identify the primary seismic waves that accompany earthquakes and differentiate between them 20. Discuss the factors that affect earthquake damage 21. Explain how the passage of seismic waves through Earth helps geologists to understand the planets interior 22. Explain how our knowledge of the density and extent of the Earth s crust and mantle helps to reveal the nature of the core 23. Draw a diagram of a cross section of the Earth showing its various zones and describe their properties 24. Describe the circulation of heat within the Earth s mantle and its connection to plate tectonics 25. Discuss the source of the heat within the Earth 26. Describe the structural components in the atomic model and relate that to an atom s atomic mass, atomic number and electron shells 27. Explain what is involved when atoms bond with one another 28. Distinguish between ionic, covalent, metallic, and Van der Waals bonds and identify the common rock forming minerals using the identification tool from lab Complete the lab on the Earth s inner structure Complete the mineral identification lab lecture lecture lecture, and lab (R,W,CT,QS) lecture lecture lecture lecture lecture, and lab
29. List the various physical properties one uses to distinguish between the minerals 30. Identify the elements that make up the bulk of Earth s crust 31. Sketch a silicate tetrahedra and describe its importance as a component of rock forming minerals 32. Explain what distinguishes igneous rocks from other rock types and differentiate between plutonic and volcanic 33. Name and describe the major types of intrusive and extrusive igneous bodies 34. Explain the importance of the viscosity of a magma and the factors that influence it 35. Explain the role of composition and texture in classifying igneous rocks lecture lecture lecture lecture lecture lecture lecture 36. Discuss the distinguishing characteristics of the major igneous groups found in the field classification tool and use it to identify igneous rocks 37. Discuss Bowen s reaction series as it affects the minerals crystallizing from a cooling melt 38. Describe the generation of magma at divergent plate boundaries and explain why this results in production of oceanic crust 39. Describe the generation of magma at convergent plate boundaries Complete the identification of igneous rocks lab, and lab lecture lecture ( lecture
40. Sketch and label the parts of a volcano 41. Describe the mechanics of a volcanic eruption and the factors that differentiate explosive from quiet eruptions 42. Explain the relationship between volcanic belts and plate boundaries and describe the lavas produced in each tectonic setting 43. Distinguish between shield volcanoes, composite volcanoes, cinder cones, fissure eruptions, and calderas in terms of their appearance, size, and eruptive style 44. Discuss the influence that volcanic eruptions may have had on past climate 45. Discuss the geologic and biologic importance of weathering 46. Distinguish between physical disintegration and chemical decomposition of rock and cite examples 47. Distinguish between oxidation, dissolution, and hydrolysis and explain the role of each in weathering 48. Discuss the influence that climate has on physical and chemical weathering 49. Draw and label a typical soil profile showing each of the major soil zones 50. Explain the nature of sedimentary rocks Complete the lab exercise on sediment texture Study the text an dlecture lecture lecture, and lab lecture lecture lecture lecture ( and lab lecture lecture lecture
51. Discuss the importance of sedimentary rocks as a component of the Earth s crust 52. Differentiate between detrital, chemical and biochemical sedimentary rocks 53. Use the identification tool from lab to identify sedimentary rocks 54. Describe the textures characteristic of sedimentary rocks and relate each to a depositional environment 55. Explain the nature of metamorphic rocks 56. Identify the agents involved in the metamorphism of rocks and discuss the role each plays 57. Discuss the various ways that rocks become metamorphosed 58. Use the identification tool to identify each rock in the metamorphic set in lab 59. Relate the metamorphic rocks to their parent precursors 60. Relate regional and contact metamorphism to their tectonic settings Complete the sedimentary rock lab Complete the metamorphic rock lab lecture lecture and lab lecture lecture lecture lecture and lab lecture lecture